宁海正学中学学生公寓设计毕业论文
2021-12-30 21:04:51
论文总字数:17338字
摘 要
第一章 项目概述 7
1.1工程概况 7
1.2设计依据 7
1.3设计内容 7
第二章 生活给水系统 8
2.1给水系统方案设计 8
2.1.1给水系统方案选择 8
2.1.2给水系统分区 8
2.2用水定额及用水量计算 8
2.2.1给水用水定额及时变化系数 8
2.3设计秒流量 8
2.4水力计算 9
2.4.1规范中的卫生器具数值 9
2.4.2市政直供水水力计算 9
2.4.3高区供水部分水力计算 11
2.5系统水表选型 13
2.5.1要求 13
2.5.2 水表选型及水头损失计算 13
2.5.3 市政直供部分所需压力校核 13
2.5.4市政直供部分减压阀设置 14
2.6 高区设备选型 14
2.6.1 高区给水系统水压计算 14
2.6.2 设备选型 15
2.6.3高区减压阀设置 15
第三章 消火栓给水系统 16
3.1消防用水量 16
3.2消防水池的计算 16
3.3.高位水箱 17
3.4 室内消火栓布置 17
3.5 消火栓所需水压 17
3.5.1 喷嘴处所需水压 17
3.5.2 水枪喷嘴出水量 18
3.5.3 水带阻力 18
3.5.4 消火栓栓口所需水压 18
3.6 消火栓系统水力计算 18
3.7 消防泵选择 20
3.8 消火栓系统减压计算 22
第四章 自动喷淋系统计算 23
4.1 设计基本数据 23
4.2 喷头和报警阀布置 23
4.3 喷头的选用与布置 23
4.4 系统的设计流量 23
4.5 自喷系统水力计算 24
4.5.1 最不利保护面积 24
4.5.2喷淋水力计算 24
4.5.3 喷淋系统水力计算 29
4.6 增压与贮水设备 29
4.6.1 喷淋泵选择 29
4.7 喷淋减压孔板计算 30
4.7.1 减压孔板计算 30
4.7.2 负一层设置减压孔板后压力校核计算 30
第五章 排水系统 32
5.1排水系统方案选择 32
5.2排水系统设计秒流量 32
5.3排水系统水力计算 33
5.3.1底层单排横支管水力计算 33
5.3.2二~十层排水水力计算 34
5.4排水立管水力计算 34
5.5集水坑计算及潜水排污泵选型 34
5.5.1 地下室车库集水坑计算及潜水排污泵选型 34
5.5.2 消防楼梯集水坑计算及潜水排污泵选型 34
5.5.3 水泵房集水坑及提升泵计算选型 35
第六章 雨水排水系统 36
6.1设计暴雨强度 36
6.2汇水面积F 36
6.3 雨水量计算 36
6.4雨水斗 37
6.5雨水排水立管管径 37
6.6溢流口设计 37
第七章 太阳能集中供热系统 39
7.1 设计概述 39
7.2 太阳能集热器布置 39
7.3 热水配水管网计算 41
7.4 选泵 46
7.4.1恒温水箱至配水点的循环泵 46
7.4.2热水箱至恒温水箱的供水泵 46
参考文献 48
致谢 49
摘要
本工程位于扬州市邗江区,总建筑面积约14300平米,其中:地上建筑面积11800平米,地下2500平米,占地面积1330平米。该建筑为框架—剪力墙结构,地上十层,地下一层,总高度39.3米,首层高度4.5米,二至十层层高3.3米[1]。
本建筑总高度39.3米,为高度大于24m的公共建筑,属于高层公共建筑。为保证建筑供水的安全可靠性,本设计中办公楼给水系统采取竖向分区供水,充分利用室外给水管网的水压,达到节能减排的目的。因此供水方案为:建筑一至五层,利用市政管网中水压直供,六至十层生活用水通过变频无负压供水设备进行加压供水。从建筑东北侧市政给水管网中接入管道引水至地下一层,然后通过变频无负压给水设备将水输送至高区楼层进行供水。办公楼内部用水采用上行下给的方式给每个用水点供水。本设计办公楼为二类高层公共建筑,火灾危险等级为中危Ⅰ级,经计算消防水池有效容积为489.6。消火栓系统工作时由地下泵房从消防水池取水后经消火栓泵加压后给着火点消火栓加压供水。喷淋系统采用湿式灭火系统,喷淋系统工作时由地下泵房从消防水池取水后经喷淋泵加压后给着火点喷头加压供水。平时消火栓和喷淋系统由屋顶消防水箱保持常压稳压状态,保证建筑消防系统的安全可靠性。本学生公寓排水设计雨污分流,生活污水通过重力排水排入市政污水管网,雨水通过重力排水排入雨水管网[2]。地下室污水汇集到集水坑后由潜污泵压力排水排入污水管网。本学生公寓污水系统采用双立管系统,设置通气立管,保证排水的通畅。本设计屋面雨水采用内排水,保证了建筑物的美观,同时屋顶设计溢流口。办公楼二层以上阳台露天,因此通过地漏汇集雨水后设置雨水排水管道。
关键词:学生公寓、给水系统、排水系统、自动喷淋系统、消火栓、太阳能集中供热系统
Abstract
The project is located in Hanjiang district, Yangzhou city, with a total construction area of about 14300 square meters, of which: 11800 square meters above ground construction area, 2500 square meters underground, covering an area of 1330 square meters. The building is framed as a shear wall structure with 10 storeys above ground and 1 storey below ground. The total height is 39.3 m, the first storey is 4.5 m and the second to tenth storey is 3.6 m.
The total height of the building is 39.3 meters. It is a public building with a height greater than 24 meters. It belongs to a high-rise building. In order to overcome the drawbacks of the same water supply system in high-rise buildings and the excessive hydrostatic pressure in Low-Rise pipelines, and ensure the safety and reliability of water supply in buildings, the water supply system in high-rise buildings should adopt vertical zoning, and the zoning should make full use of the water pressure of outdoor water supply network in order to save energy. The first to fifth floors of the building are supplied directly by the municipal pipeline network, and the sixth to tenth floors are supplied by non-negative pressure water supply equipment. The water is diverted from the municipal pipeline network to the underground floor, and then the water is conveyed to the high floors of the district by non-negative pressure frequency conversion water supply equipment for water supply. Considering that the building is the municipal pipe network pressure and variable frequency speed pump water supply mode, so the downward upward water supply is adopted[2]. This building is a second-class high-rise public building, the design flow of outdoor hydrant is 40L/s. This building belongs to other public buildings. The fire duration of canceling the fire hydrant system is 2 hours. The design flow rate of fire hydrant in the second type high-rise public buildings is 20 L/s, while the number of water guns is 2, and the minimum flow rate of each vertical pipe is 10 L/s. The building is an office building with fire danger grade of medium danger grade I. The basic design parameters of the wet system should not be lower than the sprinkler strength 6 (L/min*m2) specified in Table 5.0.1, and the area of action is 160 m2. Rainwater and sewage are diverted in this building. Domestic sewage is connected to municipal sewage pipe network. Rainwater is discharged into adjacent rainwater outlets. Basement sewage is collected into catchment pits and discharged into rainwater outlets or inspection wells by submersible sewage pumps. The sewage system of this building adopts double risers, with ventilation risers. The design of roof rainwater using internal drainage system, while the roof design spillway. The balcony of this building is open-air. Rainwater drainage pipes should be installed.
Key Words: Student apartment, water supply system, drainage system, automatic sprinkler system, hydrant, solar heating system
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